FI81051B - LASTPRESENNING. - Google Patents

Description

Load cover 1 81051

The invention relates to a load cover comprising a woven base fabric treated to be waterproof and to a plurality of tying means for attaching the load cover to a transport base.

Such load covers are commonly used during transport to protect the load from rain and snow or other adverse effects of the environment or weather. The load cover is generally made of woven and / or laminated polyethylene or polypropylene. Load covers usually have strings or other fastening means for attaching the cover to the transport base and tightening it over the load. However, current load covers alone are not sufficient to hold the load in place during transport, as they easily tear due to the weight of the load, for example when the ship tilts or the truck suddenly brakes. However, according to the instructions given, the attachment of the load should withstand a force of 1 G in each direction for sea transport and a force of 1 G in road transport forwards and 0.5 G in reverse or other directions. To achieve this, the load must be secured separately with different irons and chains, which requires the work of several men at different stages of transport, and often also machines to move heavy irons and chains. Correspondingly, it is difficult to disassemble the receiving end. Fasteners are often not worth returning, but remain at the receiving end, which increases transport costs. In addition, the chains used in the fastening may damage the load, such as tearing the rolls of paper.

It is an object of the present invention to obviate the above-mentioned problems and disadvantages.

This is achieved by a load cover 35 of the type described in the introduction, which according to the invention is characterized in that the base fabric warp yarns are multifilament yarns and that the base fabric alternates between warp yarns in areas where the weft yarns are at least mainly film strips and reinforced areas. are multifilament yarns having a thickness and tensile strength greater than that of warp yarns, the binding means being attached to reinforced areas of the base fabric.

The load cover according to the invention is strong enough to provide both the packaging and protection of the load and also the load tying which meets the above-mentioned instructions. No other fasteners are required.

Since the fastening means are attached to the reinforced areas of the load cover, the stress 15 caused by the load is also mainly applied to these reinforced areas. As a result, the areas between the reinforced areas can be significantly lower in tensile strength. This has several advantages.

First, the use of thick multifilament yarns as weft yarns significantly increases the weight of the load cover. When thick multifilament yarns are used only in relatively narrow zones between which a film strip is used, the load cover becomes light enough to be handled by one man. In this case, one man 25 can easily and quickly cover the load, which results in considerable labor cost savings.

Second, the use of relatively narrow reinforced areas reduces the cost of manufacturing the load cover, and thus the cost, because a thick multifilament space is significantly more expensive than a film strip. Manufacturing costs, in turn, are significantly dependent on the time spent weaving. The solution according to the invention thus achieves a load cover that can withstand a very high load while optimizing the weight 35 and the price of the cover.

3,81051

The invention will now be described in more detail by means of an exemplary embodiment with reference to the accompanying drawing, in which Figure 1 shows a plan view of a load cover according to the invention, and Figure 2 shows a binding means used at the ends of the load cover.

A load cover 1 according to the invention is shown in Figure 1. The load cover 1 comprises a woven base fabric 2 of the desired shape, in this case rectangular. In the case of Figure 1, the warp yarns run horizontally and the weft yarns run vertically.

In the base fabric 2, the reinforced areas 4 are alternated, in which a relatively thick multi-15 filament yarn is used as the weft yarn, and the weaker areas 3, in which a film strip is used as the weft yarn. The warp yarn of the base fabric is a multifilament yarn, which is preferably thinner than the multifilament yarn used in the areas reinforced as a weft yarn, but still has sufficient tensile strength 20 to prevent longitudinal stretching or tearing of the load cover.

By multifilament yarn is meant in this context a multifilament synthetic fiber yarn in which there are at least several dozen, preferably several hundred, fibers. Such yarns made by multifilament technology are well known in the art. In a preferred embodiment of the invention, the multifilament yarns are made of polypropylene or polyester. However, other suitable materials may be used.

30 A film strip used as a weft yarn is also well known in the art. In a preferred embodiment of the invention, high density polyethylene (HDPE) is used as the film strip material, but of course other suitable materials may be used.

35 If there are sharp points in the load which may tear 4 81051 unreinforced areas of the load covering, in these areas some of the film strips used as weft yarns may be replaced, for example, by multifilament yarn warp yarn. In this case, for example, every fourth film strip 5 can be replaced by a multifilament yarn.

The base fabric 2 is generally not completely waterproof as such and must be treated to achieve a good result. In a preferred embodiment of the invention, this is realized by forming a tough, weatherproof and waterproof plastic film on the base fabric 2.

The reinforced areas 4 are generally substantially narrower than the unreinforced areas 3 in order to reduce the weight and cost of the load cover. The distance between the reinforced areas depends mainly on the location and number of anchor points in the transport base 15. In a typical container bottom or container pallet, there are attachment points at intervals of about 80 to 120 cm. In this case, a load cover suitable for such a container pallet could have a corresponding number of reinforced areas with a width of about 20 10 to 30 cm. It should be noted, however, that the width, number, and spacing of the reinforced areas can vary considerably in different applications.

At or near the other end of each reinforced area 4, a tie tape 5 is attached by sewing or otherwise to secure the load cover to the transport base. In a preferred embodiment of the invention, each lashing strap 5 is formed as a loop by attaching the lashing strap at both ends to the reinforced area 4 of the load cover 1. This facilitates the fastening and tightening of the load cover because a second lashing strap 5 can be inserted through the lashing strap loop. This also has the advantage that, when the load cover is removed, said additional binding tape 35 can be cut, whereby the binding tape loop 5 attached to the load cover 1 5 81051 remains intact and the load cover can be reused if necessary. Of course, it is also possible to use a lashing strap attached to the load cover 1 which does not form 5 loops, or some other suitable fastening method.

Since the binding tape loops at the ends of the load cover 1 stress the load cover in a direction perpendicular to the reinforced area 4 and parallel to the warp yarns, the binding loops 5 are fixed to the base fabric 10 2 by a triangular fastening piece 6, for example a multifilament woven fabric. The triangular piece of fabric 6 is completely sewn to the base fabric 2 so that one side thereof is parallel to the weft yarns of the base fabric 2 and the warp and weft yarns of the fabric piece 6 are substantially parallel to the other two sides of the fabric piece 6. The strap loop 5 is sewn at both ends to a triangular piece of fabric 6, preferably to a tip opposite the first-mentioned side, whereby the 20-point load caused by the strap loop 5 is transferred through the triangular piece 6 to a wider area in the load cover and does not cause load length. The triangular body 6 is dimensioned to correspond to the durability of the base fabric. If the tensile strength of the reinforced areas 4 is three to 25 times the tensile strength of the base fabric 2, the side length of the triangle 6 may be three times the width of the reinforced area 4. By means of the piece 6, the binding strips 5 can be fastened anywhere in the base fabric. The side length of the triangular fabric piece is preferably about 40 to 70 cm. The particularly durable triangular fabric piece 6 is obtained by folding a square fabric piece into a triangular shape so that the warp and weft yarns of the fabric piece 6 come diagonally as described above.

With the load cover according to the invention, the desired load bonding can be achieved, even if the load cover covers only the top of the load. In one embodiment of the invention, the base fabric of the load cover is dimensioned to cover the upper part of the load and flanges of lighter, waterproof weather protection material are sewn or otherwise attached to the edges of the base fabric, increasing the size of the load cover so much that the lower part of the load is protected. In this way, the weight of the load cover can be further reduced and the manufacturing cost can be lowered.

The figures and their description are intended only to illustrate the invention. The details of the load cover according to the invention may vary within the scope of the appended claims.

Claims (9)

A load cover (1) comprising a woven base fabric (2) treated to be waterproof and a plurality of tying means (5, 6) for attaching the load cover (1) to a transport base, characterized in that the base fabric (2) warp yarns are multifilament yarns, and that in the base fabric, in the direction of the warp yarns, there are alternating areas (3) where the weft yarns are at least mainly film strips and reinforced areas (4) where the weft yarns are multifilament yarns 6) is attached to the reinforced areas (4) of the base fabric (2). Load cover according to Claim 1, characterized in that the reinforced areas (4) of the base fabric (2) are narrower than those areas (3) in which the weft yarn is a film strip. Load cover according to Claim 2, characterized in that the reinforced areas (4) of the base fabric (2) are approximately 80 to 120 cm apart and have a width of approximately 10 to 30 cm. Load cover according to one of the preceding claims, characterized in that in those areas (3) of the base fabric 25 in which the weft yarn is essentially a film strip, every fourth weft yarn is a multifilament yarn. Load cover according to one of the preceding claims, characterized in that the binding means are binding strips (5) which are at least one at each end of each of the reinforced areas (4). Load cover according to one of the preceding claims, characterized in that the end sides of the base fabric, which are perpendicular to the warp yarns, have at least one triangular fabric piece (6) completely sewn to the base fabric (2) so that β 81051 and one of the fabric piece (6) the side is substantially parallel to the weft yarns of the base fabric (2) and the warp and weft yarns of the fabric piece (6) are substantially parallel to the other sides, the binding strips (5) being attached to the tip of said triangular fabric piece (6) opposite the first side . Load cover according to Claim 6, characterized in that the side length of the triangular piece of fabric (6) is approximately 40 to 70 cm. 7 81051 Load cover according to one of the preceding claims, characterized in that the multifilament yarns are polypropylene or polyester yarns and the weft yarns are polyethylene film strips. Load cover 15 according to one of the preceding claims, characterized in that the base fabric (2) of the load cover is dimensioned to cover the upper part of the load and waterproof flanges are attached to the edges of the base fabric (2) to protect the lower part of the load. 9 81051